Abstract
The shortage of skilled workers who can use robots is a crucial issue hampering the growth of manufacturing industries. We present a new type of workforce training system, TeachBot, in which a robotic instructor delivers a series of interactive lectures using graphics and physical demonstration of its arm movements. Furthermore, the TeachBot allows learners to physically interact with the robot. This new human-computer interface, integrating oral and graphical instructions with motion demonstration and physical touch, enables to create engaging training materials. Effective learning takes place when the learner simultaneously interacts with an embodiment of new knowledge. We apply this “Learning by Touching” methodology to teach basic concepts, e.g. how a shaft encoder and feedback control work. In a pilot randomized control test with a small number of human subjects, we find suggestive evidence that Learning by Touching enhances learning effectiveness in this robotic context for adult learners. Students whose learning experience included touching the robot as opposed to watching it delivers the lessons showed gains in their ability to integrate knowledge about robotics. The “touching” group showed statistically significant gains in self-efficacy, which is an important antecedent to further learning and successful use of new technologies, as well as gains in knowledge about robotic concepts that trend toward significance.
Highlights
Amid the revolutionary changes to manufacturing and other industry sectors, the shortage of skilled workers who can use robots and advanced technologies are becoming a serious problem
We evaluate how well TeachBot improves subjects’ understanding of fundamental robotics concepts, as well as their self-efficacy regarding those concepts
We have presented TeachBot, an automatic, robotic education and training system
Summary
Amid the revolutionary changes to manufacturing and other industry sectors, the shortage of skilled workers who can use robots and advanced technologies are becoming a serious problem. In the robotics and automation society, as well as in the education research sector, a number of valuable educational materials using robots have been developed These include robotics programming instruments for elementary school children [3]; cellularphone-based, low-cost robots for college students [4]; and industrial mobile robots for graduate students [5]. The goal of this work is to develop a new methodology for reaching out to these broad populations, engaging them, and empowering them with the training and education necessary to become employed in jobs involving robotics and automation
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